Quasi-monochromatic radiation from a circularly polarized laser pulse cross colliding with a relativistic electron

IF 3.1 3区物理与天体物理 Q2 Engineering Optik Pub Date : 2024-08-06 DOI:10.1016/j.ijleo.2024.171987

Yizhang Li , Qingyu Yang , Youwei Tian

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Abstract

The utilization of X-rays produced by interaction between relativistic electrons and laser pulses finds profound application in domains such as photoelectron spectroscopy. Through numerical simulation, the influence of the laser pulse delay time $τ_{0}$ and the initial Lorentz factor $γ_{0}$ on the spatial and spectral properties of radiation produced by electron cross collision with a circularly polarized laser pulse is investigated. Also, the optimal parameters for generating quasi-monochromatic pulses and high-order harmonic radiation are discussed. The results reveal that when $| τ_{0} |$ is large, the electron collides with the leading or trailing edge of the laser pulse, resulting in superior quasi-monochromatic radiation pulses. However, when $τ_{0}$ =0, the electron collides with the center of the laser pulse, which is most favorable for the generation of high-order harmonics. Furthermore, $γ_{0}$ has a negligible impact on the monochromaticity of the fundamental harmonic but plays a detrimental role in forming a single quasi-monochromatic pulse at higher values. Instead, higher $γ_{0}$ promotes the broadening of high-order harmonics. These results are important for obtaining radiating X-rays with different properties according to practical requirements.

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圆偏振激光脉冲与相对论电子交叉碰撞产生的准单色辐射

相对论电子与激光脉冲相互作用产生的 X 射线在光电子光谱学等领域有着广泛的应用。通过数值模拟，研究了激光脉冲延迟时间和初始洛伦兹因子对电子与圆偏振激光脉冲交叉碰撞产生的辐射的空间和光谱特性的影响。此外，还讨论了产生准单色脉冲和高阶谐波辐射的最佳参数。结果表明，当 = 大时，电子会与激光脉冲的前缘或后缘碰撞，从而产生卓越的准单色辐射脉冲。然而，当 =0 时，电子与激光脉冲中心碰撞，这最有利于产生高阶谐波。此外，=0 对基谐波的单色性影响微乎其微，但在较高值时对形成单个准单色脉冲不利。相反，更高的值会促进高阶谐波的展宽。这些结果对于根据实际要求获得具有不同特性的辐射 X 射线非常重要。

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来源期刊

Optik 物理-光学

CiteScore

6.90

自引率

12.90%

发文量

1471

审稿时长

46 days

期刊介绍： Optik publishes articles on all subjects related to light and electron optics and offers a survey on the state of research and technical development within the following fields: Optics: -Optics design, geometrical and beam optics, wave optics- Optical and micro-optical components, diffractive optics, devices and systems- Photoelectric and optoelectronic devices- Optical properties of materials, nonlinear optics, wave propagation and transmission in homogeneous and inhomogeneous materials- Information optics, image formation and processing, holographic techniques, microscopes and spectrometer techniques, and image analysis- Optical testing and measuring techniques- Optical communication and computing- Physiological optics- As well as other related topics.